Strangpressen von verschleißbeständigen Fe‐Basis MMC |
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Authors: | M. Karlsohn Dipl.‐Ing. W. Theisen |
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Affiliation: | Institut für Werkstoffe, Lehrstuhl Werkstofftechnik, Ruhr‐Universit?t Bochum, Universit?tsstra?e 150, 44801 Bochum |
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Abstract: | Hot extrusion of wear resistant Fe‐base metal matrix composites (MMC) Increasing demands on technical surfaces, i.e. thermal load, corrosion or wear, often prompt the development of tailored materials or coatings. In highly abrasive environments the progress in powder metallurgy has lead to the production of highly wear‐resistant materials based on metal‐matrix composites (MMC). Such materials are produced from a metal matrix (MM) based on Fe, Ni or Co and additional hard phases (HP), such as carbides, nitrides, borides or oxides. Moreover, powder metallurgical techniques can be used to adapt the particle size, the distribution and the content of the hard phases to the wear system on a large scale. HIP cladding is an established method of producing such MMC, but due to its near net shape capsule technique it is quite expensive. Because of this reason hot direct extrusion of capsules filled with powder blends was researched in a DFG‐Project as a method of producing long cylindrical products. Aiming at a high abrasive wear resistance, powder blends of hardenable steels with additions of fused tungsten carbide (WSC) or titanium carbides (TiC) were used. The extruded MMC were investigated with respect to their densification and microstructure, their bending strength and their wear resistance. |
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Keywords: | Strangpressen Pulvermetallurgie Metallmatrix Hartstoff MMC Verdichtung Biegebruchfestigkeit Verschleiß widerstand Hot extrusion powder metallurgy metal matrix hard phases MMC densification bending strength wear resistance |
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